Almost flat manifold explained

In mathematics, a smooth compact manifold M is called almost flat if for any

\varepsilon>0

there is a Riemannian metric

g\varepsilon

on M such that

diam(M,g\varepsilon)\le1

and

g\varepsilon

is

\varepsilon

-flat, i.e. for the sectional curvature of
K
g\varepsilon

we have
|K
g\epsilon

|<\varepsilon

.

Given n, there is a positive number

\varepsilonn>0

such that if an n-dimensional manifold admits an

\varepsilonn

-flat metric with diameter

\le1

then it is almost flat. On the other hand, one can fix the bound of sectional curvature and get the diameter going to zero, so the almost-flat manifold is a special case of a collapsing manifold, which is collapsing along all directions.

According to the Gromov–Ruh theorem, M is almost flat if and only if it is infranil. In particular, it is a finite factor of a nilmanifold, which is the total space of a principal torus bundle over a principal torus bundle over a torus.

References